/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include sal_uLong Animation::gAnimationRendererCount = 0; Animation::Animation() : maTimer("vcl::Animation") , mnLoopCount(0) , mnLoops(0) , mnFrameIndex(0) , mbIsInAnimation(false) , mbLoopTerminated(false) { maTimer.SetInvokeHandler(LINK(this, Animation, ImplTimeoutHdl)); } Animation::Animation(const Animation& rAnimation) : maBitmapEx(rAnimation.maBitmapEx) , maTimer("vcl::Animation") , maGlobalSize(rAnimation.maGlobalSize) , mnLoopCount(rAnimation.mnLoopCount) , mnFrameIndex(rAnimation.mnFrameIndex) , mbIsInAnimation(false) , mbLoopTerminated(rAnimation.mbLoopTerminated) { for (auto const& rFrame : rAnimation.maFrames) maFrames.emplace_back(new AnimationFrame(*rFrame)); maTimer.SetInvokeHandler(LINK(this, Animation, ImplTimeoutHdl)); mnLoops = mbLoopTerminated ? 0 : mnLoopCount; } Animation::~Animation() { if (mbIsInAnimation) Stop(); } Animation& Animation::operator=(const Animation& rAnimation) { if (this != &rAnimation) { Clear(); for (auto const& i : rAnimation.maFrames) maFrames.emplace_back(new AnimationFrame(*i)); maGlobalSize = rAnimation.maGlobalSize; maBitmapEx = rAnimation.maBitmapEx; mnLoopCount = rAnimation.mnLoopCount; mnFrameIndex = rAnimation.mnFrameIndex; mbLoopTerminated = rAnimation.mbLoopTerminated; mnLoops = mbLoopTerminated ? 0 : mnLoopCount; } return *this; } bool Animation::operator==(const Animation& rAnimation) const { return maFrames.size() == rAnimation.maFrames.size() && maBitmapEx == rAnimation.maBitmapEx && maGlobalSize == rAnimation.maGlobalSize && std::equal(maFrames.begin(), maFrames.end(), rAnimation.maFrames.begin(), [](const std::unique_ptr& pAnim1, const std::unique_ptr& pAnim2) -> bool { return *pAnim1 == *pAnim2; }); } void Animation::Clear() { maTimer.Stop(); mbIsInAnimation = false; maGlobalSize = Size(); maBitmapEx.SetEmpty(); maFrames.clear(); maRenderers.clear(); } bool Animation::IsTransparent() const { tools::Rectangle aRect{ Point(), maGlobalSize }; // If some small bitmap needs to be replaced by the background, // we need to be transparent, in order to be displayed correctly // as the application (?) does not invalidate on non-transparent // graphics due to performance reasons. return maBitmapEx.IsAlpha() || std::any_of(maFrames.begin(), maFrames.end(), [&aRect](const std::unique_ptr& pAnim) -> bool { return pAnim->meDisposal == Disposal::Back && tools::Rectangle{ pAnim->maPositionPixel, pAnim->maSizePixel } != aRect; }); } sal_uLong Animation::GetSizeBytes() const { sal_uLong nSizeBytes = GetBitmapEx().GetSizeBytes(); for (auto const& pAnimationFrame : maFrames) { nSizeBytes += pAnimationFrame->maBitmapEx.GetSizeBytes(); } return nSizeBytes; } BitmapChecksum Animation::GetChecksum() const { SVBT32 aBT32; BitmapChecksumOctetArray aBCOA; BitmapChecksum nCrc = GetBitmapEx().GetChecksum(); UInt32ToSVBT32(maFrames.size(), aBT32); nCrc = rtl_crc32(nCrc, aBT32, 4); Int32ToSVBT32(maGlobalSize.Width(), aBT32); nCrc = rtl_crc32(nCrc, aBT32, 4); Int32ToSVBT32(maGlobalSize.Height(), aBT32); nCrc = rtl_crc32(nCrc, aBT32, 4); for (auto const& i : maFrames) { BCToBCOA(i->GetChecksum(), aBCOA); nCrc = rtl_crc32(nCrc, aBCOA, BITMAP_CHECKSUM_SIZE); } return nCrc; } bool Animation::Start(OutputDevice& rOut, const Point& rDestPt, const Size& rDestSz, tools::Long nRendererId, OutputDevice* pFirstFrameOutDev) { bool bRet = false; if (!maFrames.empty()) { if ((rOut.GetOutDevType() == OUTDEV_WINDOW) && !mbLoopTerminated && (ANIMATION_TIMEOUT_ON_CLICK != maFrames[mnFrameIndex]->mnWait)) { bool differs = true; auto itAnimView = std::find_if( maRenderers.begin(), maRenderers.end(), [&rOut, nRendererId](const std::unique_ptr& pRenderer) -> bool { return pRenderer->matches(&rOut, nRendererId); }); if (itAnimView != maRenderers.end()) { if ((*itAnimView)->getOriginPosition() == rDestPt && (*itAnimView)->getOutSizePix() == rOut.LogicToPixel(rDestSz)) { (*itAnimView)->repaint(); differs = false; } else { maRenderers.erase(itAnimView); } } if (maRenderers.empty()) { maTimer.Stop(); mbIsInAnimation = false; mnFrameIndex = 0; } if (differs) maRenderers.emplace_back(new AnimationRenderer(this, &rOut, rDestPt, rDestSz, nRendererId, pFirstFrameOutDev)); if (!mbIsInAnimation) { ImplRestartTimer(maFrames[mnFrameIndex]->mnWait); mbIsInAnimation = true; } } else Draw(rOut, rDestPt, rDestSz); bRet = true; } return bRet; } void Animation::Stop(const OutputDevice* pOut, tools::Long nRendererId) { std::erase_if(maRenderers, [=](const std::unique_ptr& pRenderer) -> bool { return pRenderer->matches(pOut, nRendererId); }); if (maRenderers.empty()) { maTimer.Stop(); mbIsInAnimation = false; } } void Animation::Draw(OutputDevice& rOut, const Point& rDestPt) const { Draw(rOut, rDestPt, rOut.PixelToLogic(maGlobalSize)); } void Animation::Draw(OutputDevice& rOut, const Point& rDestPt, const Size& rDestSz) const { const size_t nCount = maFrames.size(); if (!nCount) return; AnimationFrame* pObj = maFrames[std::min(mnFrameIndex, nCount - 1)].get(); if (rOut.GetConnectMetaFile() || (rOut.GetOutDevType() == OUTDEV_PRINTER)) { maFrames[0]->maBitmapEx.Draw(&rOut, rDestPt, rDestSz); } else if (ANIMATION_TIMEOUT_ON_CLICK == pObj->mnWait) { pObj->maBitmapEx.Draw(&rOut, rDestPt, rDestSz); } else { const size_t nOldPos = mnFrameIndex; if (mbLoopTerminated) const_cast(this)->mnFrameIndex = nCount - 1; { AnimationRenderer{ const_cast(this), &rOut, rDestPt, rDestSz, 0 }; } const_cast(this)->mnFrameIndex = nOldPos; } } namespace { constexpr sal_uLong constMinTimeout = 2; } void Animation::ImplRestartTimer(sal_uLong nTimeout) { maTimer.SetTimeout(std::max(nTimeout, constMinTimeout) * 10); maTimer.Start(); } std::vector> Animation::CreateAnimationDataItems() { std::vector> aDataItems; for (auto const& rItem : maRenderers) { aDataItems.emplace_back(rItem->createAnimationData()); } return aDataItems; } void Animation::PopulateRenderers() { for (auto& pDataItem : CreateAnimationDataItems()) { AnimationRenderer* pRenderer = nullptr; if (!pDataItem->mpRendererData) { pRenderer = new AnimationRenderer(this, pDataItem->mpRenderContext, pDataItem->maOriginStartPt, pDataItem->maStartSize, pDataItem->mnRendererId); maRenderers.push_back(std::unique_ptr(pRenderer)); } else { pRenderer = pDataItem->mpRendererData; } pRenderer->pause(pDataItem->mbIsPaused); pRenderer->setMarked(true); } } void Animation::RenderNextFrameInAllRenderers() { AnimationFrame* pCurrentFrameBmp = (++mnFrameIndex < maFrames.size()) ? maFrames[mnFrameIndex].get() : nullptr; if (!pCurrentFrameBmp) { if (mnLoops == 1) { Stop(); mbLoopTerminated = true; mnFrameIndex = maFrames.size() - 1; maBitmapEx = maFrames[mnFrameIndex]->maBitmapEx; return; } else { if (mnLoops) mnLoops--; mnFrameIndex = 0; pCurrentFrameBmp = maFrames[mnFrameIndex].get(); } } // Paint all views. std::for_each(maRenderers.cbegin(), maRenderers.cend(), [this](const auto& pRenderer) { pRenderer->draw(mnFrameIndex); }); /* * If a view is marked, remove the view, because * area of output lies out of display area of window. * Mark state is set from view itself. */ std::erase_if(maRenderers, [](const auto& pRenderer) { return pRenderer->isMarked(); }); // stop or restart timer if (maRenderers.empty()) Stop(); else ImplRestartTimer(pCurrentFrameBmp->mnWait); } void Animation::PruneMarkedRenderers() { // delete all unmarked views std::erase_if(maRenderers, [](const auto& pRenderer) { return !pRenderer->isMarked(); }); // reset marked state std::for_each(maRenderers.cbegin(), maRenderers.cend(), [](const auto& pRenderer) { pRenderer->setMarked(false); }); } bool Animation::IsAnyRendererActive() { return std::any_of(maRenderers.cbegin(), maRenderers.cend(), [](const auto& pRenderer) { return !pRenderer->isPaused(); }); } IMPL_LINK_NOARG(Animation, ImplTimeoutHdl, Timer*, void) { const size_t nAnimCount = maFrames.size(); if (nAnimCount) { bool bIsAnyRendererActive = true; if (maNotifyLink.IsSet()) { maNotifyLink.Call(this); PopulateRenderers(); PruneMarkedRenderers(); bIsAnyRendererActive = IsAnyRendererActive(); } if (maRenderers.empty()) Stop(); else if (!bIsAnyRendererActive) ImplRestartTimer(10); else RenderNextFrameInAllRenderers(); } else { Stop(); } } bool Animation::Insert(const AnimationFrame& rStepBmp) { bool bRet = false; if (!IsInAnimation()) { tools::Rectangle aGlobalRect(Point(), maGlobalSize); maGlobalSize = aGlobalRect.Union(tools::Rectangle(rStepBmp.maPositionPixel, rStepBmp.maSizePixel)) .GetSize(); maFrames.emplace_back(new AnimationFrame(rStepBmp)); // As a start, we make the first BitmapEx the replacement BitmapEx if (maFrames.size() == 1) maBitmapEx = rStepBmp.maBitmapEx; bRet = true; } return bRet; } const AnimationFrame& Animation::Get(sal_uInt16 nAnimation) const { SAL_WARN_IF((nAnimation >= maFrames.size()), "vcl", "No object at this position"); return *maFrames[nAnimation]; } void Animation::Replace(const AnimationFrame& rNewAnimationFrame, sal_uInt16 nAnimation) { SAL_WARN_IF((nAnimation >= maFrames.size()), "vcl", "No object at this position"); maFrames[nAnimation].reset(new AnimationFrame(rNewAnimationFrame)); // If we insert at first position we also need to // update the replacement BitmapEx if ((!nAnimation && (!mbLoopTerminated || (maFrames.size() == 1))) || ((nAnimation == maFrames.size() - 1) && mbLoopTerminated)) { maBitmapEx = rNewAnimationFrame.maBitmapEx; } } void Animation::SetLoopCount(const sal_uInt32 nLoopCount) { mnLoopCount = nLoopCount; ResetLoopCount(); } void Animation::ResetLoopCount() { mnLoops = mnLoopCount; mbLoopTerminated = false; } void Animation::Convert(BmpConversion eConversion) { SAL_WARN_IF(IsInAnimation(), "vcl", "Animation modified while it is animated"); bool bRet; if (!IsInAnimation() && !maFrames.empty()) { bRet = true; for (size_t i = 0, n = maFrames.size(); (i < n) && bRet; ++i) bRet = maFrames[i]->maBitmapEx.Convert(eConversion); maBitmapEx.Convert(eConversion); } } bool Animation::ReduceColors(sal_uInt16 nNewColorCount) { SAL_WARN_IF(IsInAnimation(), "vcl", "Animation modified while it is animated"); bool bRet; if (!IsInAnimation() && !maFrames.empty()) { bRet = true; for (size_t i = 0, n = maFrames.size(); (i < n) && bRet; ++i) { bRet = BitmapFilter::Filter(maFrames[i]->maBitmapEx, BitmapColorQuantizationFilter(nNewColorCount)); } BitmapFilter::Filter(maBitmapEx, BitmapColorQuantizationFilter(nNewColorCount)); } else { bRet = false; } return bRet; } bool Animation::Invert() { SAL_WARN_IF(IsInAnimation(), "vcl", "Animation modified while it is animated"); bool bRet; if (!IsInAnimation() && !maFrames.empty()) { bRet = true; for (size_t i = 0, n = maFrames.size(); (i < n) && bRet; ++i) bRet = maFrames[i]->maBitmapEx.Invert(); maBitmapEx.Invert(); } else bRet = false; return bRet; } void Animation::Mirror(BmpMirrorFlags nMirrorFlags) { SAL_WARN_IF(IsInAnimation(), "vcl", "Animation modified while it is animated"); bool bRet; if (IsInAnimation() || maFrames.empty()) return; bRet = true; if (nMirrorFlags == BmpMirrorFlags::NONE) return; for (size_t i = 0, n = maFrames.size(); (i < n) && bRet; ++i) { AnimationFrame* pCurrentFrameBmp = maFrames[i].get(); bRet = pCurrentFrameBmp->maBitmapEx.Mirror(nMirrorFlags); if (bRet) { if (nMirrorFlags & BmpMirrorFlags::Horizontal) pCurrentFrameBmp->maPositionPixel.setX(maGlobalSize.Width() - pCurrentFrameBmp->maPositionPixel.X() - pCurrentFrameBmp->maSizePixel.Width()); if (nMirrorFlags & BmpMirrorFlags::Vertical) pCurrentFrameBmp->maPositionPixel.setY(maGlobalSize.Height() - pCurrentFrameBmp->maPositionPixel.Y() - pCurrentFrameBmp->maSizePixel.Height()); } } maBitmapEx.Mirror(nMirrorFlags); } void Animation::Adjust(short nLuminancePercent, short nContrastPercent, short nChannelRPercent, short nChannelGPercent, short nChannelBPercent, double fGamma, bool bInvert) { SAL_WARN_IF(IsInAnimation(), "vcl", "Animation modified while it is animated"); bool bRet; if (IsInAnimation() || maFrames.empty()) return; bRet = true; for (size_t i = 0, n = maFrames.size(); (i < n) && bRet; ++i) { bRet = maFrames[i]->maBitmapEx.Adjust(nLuminancePercent, nContrastPercent, nChannelRPercent, nChannelGPercent, nChannelBPercent, fGamma, bInvert); } maBitmapEx.Adjust(nLuminancePercent, nContrastPercent, nChannelRPercent, nChannelGPercent, nChannelBPercent, fGamma, bInvert); } SvStream& WriteAnimation(SvStream& rOStm, const Animation& rAnimation) { const sal_uInt16 nCount = rAnimation.Count(); if (nCount) { const sal_uInt32 nDummy32 = 0; // If no BitmapEx was set we write the first Bitmap of // the Animation if (rAnimation.GetBitmapEx().GetBitmap().IsEmpty()) WriteDIBBitmapEx(rAnimation.Get(0).maBitmapEx, rOStm); else WriteDIBBitmapEx(rAnimation.GetBitmapEx(), rOStm); // Write identifier ( SDANIMA1 ) rOStm.WriteUInt32(0x5344414e).WriteUInt32(0x494d4931); for (sal_uInt16 i = 0; i < nCount; i++) { const AnimationFrame& rAnimationFrame = rAnimation.Get(i); const sal_uInt16 nRest = nCount - i - 1; // Write AnimationFrame WriteDIBBitmapEx(rAnimationFrame.maBitmapEx, rOStm); tools::GenericTypeSerializer aSerializer(rOStm); aSerializer.writePoint(rAnimationFrame.maPositionPixel); aSerializer.writeSize(rAnimationFrame.maSizePixel); aSerializer.writeSize(rAnimation.maGlobalSize); rOStm.WriteUInt16((ANIMATION_TIMEOUT_ON_CLICK == rAnimationFrame.mnWait) ? 65535 : rAnimationFrame.mnWait); rOStm.WriteUInt16(static_cast(rAnimationFrame.meDisposal)); rOStm.WriteBool(rAnimationFrame.mbUserInput); rOStm.WriteUInt32(rAnimation.mnLoopCount); rOStm.WriteUInt32(nDummy32); // Unused rOStm.WriteUInt32(nDummy32); // Unused rOStm.WriteUInt32(nDummy32); // Unused write_uInt16_lenPrefixed_uInt8s_FromOString(rOStm, ""); // dummy rOStm.WriteUInt16(nRest); // Count of remaining structures } } return rOStm; } SvStream& ReadAnimation(SvStream& rIStm, Animation& rAnimation) { sal_uLong nStmPos; sal_uInt32 nAnimMagic1, nAnimMagic2; SvStreamEndian nOldFormat = rIStm.GetEndian(); bool bReadAnimations = false; rIStm.SetEndian(SvStreamEndian::LITTLE); nStmPos = rIStm.Tell(); rIStm.ReadUInt32(nAnimMagic1).ReadUInt32(nAnimMagic2); rAnimation.Clear(); // If the BitmapEx at the beginning have already been read (by Graphic) // we can start reading the AnimationFrames right away if ((nAnimMagic1 == 0x5344414e) && (nAnimMagic2 == 0x494d4931) && !rIStm.GetError()) bReadAnimations = true; // Else, we try reading the Bitmap(-Ex) else { rIStm.Seek(nStmPos); ReadDIBBitmapEx(rAnimation.maBitmapEx, rIStm); nStmPos = rIStm.Tell(); rIStm.ReadUInt32(nAnimMagic1).ReadUInt32(nAnimMagic2); if ((nAnimMagic1 == 0x5344414e) && (nAnimMagic2 == 0x494d4931) && !rIStm.GetError()) bReadAnimations = true; else rIStm.Seek(nStmPos); } // Read AnimationFrames if (bReadAnimations) { AnimationFrame aAnimationFrame; sal_uInt32 nTmp32; sal_uInt16 nTmp16; bool cTmp; do { ReadDIBBitmapEx(aAnimationFrame.maBitmapEx, rIStm); tools::GenericTypeSerializer aSerializer(rIStm); aSerializer.readPoint(aAnimationFrame.maPositionPixel); aSerializer.readSize(aAnimationFrame.maSizePixel); aSerializer.readSize(rAnimation.maGlobalSize); rIStm.ReadUInt16(nTmp16); aAnimationFrame.mnWait = ((65535 == nTmp16) ? ANIMATION_TIMEOUT_ON_CLICK : nTmp16); rIStm.ReadUInt16(nTmp16); aAnimationFrame.meDisposal = static_cast(nTmp16); rIStm.ReadCharAsBool(cTmp); aAnimationFrame.mbUserInput = cTmp; rIStm.ReadUInt32(rAnimation.mnLoopCount); rIStm.ReadUInt32(nTmp32); // Unused rIStm.ReadUInt32(nTmp32); // Unused rIStm.ReadUInt32(nTmp32); // Unused read_uInt16_lenPrefixed_uInt8s_ToOString(rIStm); // Unused rIStm.ReadUInt16(nTmp16); // The rest to read rAnimation.Insert(aAnimationFrame); } while (nTmp16 && !rIStm.GetError()); rAnimation.ResetLoopCount(); } rIStm.SetEndian(nOldFormat); return rIStm; } AnimationData::AnimationData() : mpRenderContext(nullptr) , mpRendererData(nullptr) , mnRendererId(0) , mbIsPaused(false) { } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */